/******************************************************************************
 *
 * Name:     georaster_dataset.cpp
 * Project:  Oracle Spatial GeoRaster Driver
 * Purpose:  Implement GeoRasterDataset Methods
 * Author:   Ivan Lucena [ivan.lucena at oracle.com]
 *
 ******************************************************************************
 * Copyright (c) 2008, Ivan Lucena <ivan dot lucena at oracle dot com>
 * Copyright (c) 2013, Even Rouault <even dot rouault at spatialys.com>
 *
 * Permission is hereby granted, free of charge, to any person obtaining a
 * copy of this software and associated documentation files ( the "Software" ),
 * to deal in the Software without restriction, including without limitation
 * the rights to use, copy, modify, merge, publish, distribute, sublicense,
 * and/or sell copies of the Software, and to permit persons to whom the
 * Software is furnished to do so, subject to the following conditions:
 *
 * The above copyright notice and this permission notice shall be included
 * in all copies or substantial portions of the Software.
 *
 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
 * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
 * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
 * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
 * DEALINGS IN THE SOFTWARE.
 *****************************************************************************/

#include "cpl_error.h"
#include "cpl_vsi_virtual.h"
#include "gdaljp2metadata.h"
#include "cpl_list.h"

#include "gdal.h"
#include "gdal_frmts.h"
#include "gdal_priv.h"
#include "ogr_spatialref.h"

#include "georaster_priv.h"

#include <memory>

CPL_CVSID("$Id$")

//  ---------------------------------------------------------------------------
//                                                           GeoRasterDataset()
//  ---------------------------------------------------------------------------

GeoRasterDataset::GeoRasterDataset()
{
    bGeoTransform       = false;
    bForcedSRID         = false;
    poGeoRaster         = nullptr;
    papszSubdatasets    = nullptr;
    adfGeoTransform[0]  = 0.0;
    adfGeoTransform[1]  = 1.0;
    adfGeoTransform[2]  = 0.0;
    adfGeoTransform[3]  = 0.0;
    adfGeoTransform[4]  = 0.0;
    adfGeoTransform[5]  = 1.0;
    pszProjection       = nullptr;
    poMaskBand          = nullptr;
    bApplyNoDataArray   = false;
    poJP2Dataset        = nullptr;
}

//  ---------------------------------------------------------------------------
//                                                          ~GeoRasterDataset()
//  ---------------------------------------------------------------------------

GeoRasterDataset::~GeoRasterDataset()
{
    GeoRasterDataset::FlushCache(true);

    poGeoRaster->FlushMetadata();

    delete poGeoRaster;

    if( poMaskBand )
    {
        delete poMaskBand;
    }

    if( poJP2Dataset )
    {
        delete poJP2Dataset;
    }

    CPLFree( pszProjection );
    CSLDestroy( papszSubdatasets );
}

//  ---------------------------------------------------------------------------
//                                                                   Identify()
//  ---------------------------------------------------------------------------

int GeoRasterDataset::Identify( GDALOpenInfo* poOpenInfo )
{
    //  -------------------------------------------------------------------
    //  Verify georaster prefix
    //  -------------------------------------------------------------------

    char* pszFilename = poOpenInfo->pszFilename;

    if( STARTS_WITH_CI(pszFilename, "georaster:") == false &&
        STARTS_WITH_CI(pszFilename, "geor:")       == false )
    {
        return false;
    }

    return true;
}

//  ---------------------------------------------------------------------------
//                                                                       Open()
//  ---------------------------------------------------------------------------

GDALDataset* GeoRasterDataset::Open( GDALOpenInfo* poOpenInfo )
{
    //  -------------------------------------------------------------------
    //  It should not have an open file pointer.
    //  -------------------------------------------------------------------

    if( poOpenInfo->fpL != nullptr )
    {
        return nullptr;
    }

    //  -------------------------------------------------------------------
    //  Check identification string and usage
    //  -------------------------------------------------------------------

    if( ! Identify( poOpenInfo ) )
    {
        return nullptr;
    }

    //  -------------------------------------------------------------------
    //  Create a GeoRaster wrapper object
    //  -------------------------------------------------------------------

    GeoRasterWrapper* poGRW = GeoRasterWrapper::Open(
            poOpenInfo->pszFilename,
            poOpenInfo->eAccess == GA_Update );

    if( ! poGRW )
    {
        return nullptr;
    }

    //  -------------------------------------------------------------------
    //  Create a corresponding GDALDataset
    //  -------------------------------------------------------------------

    GeoRasterDataset *poGRD = new GeoRasterDataset();

    if( ! poGRD )
    {
        return nullptr;
    }

    poGRD->eAccess     = poOpenInfo->eAccess;
    poGRD->poGeoRaster = poGRW;

    //  -------------------------------------------------------------------
    //  List Subdatasets
    //  -------------------------------------------------------------------

    if( ! poGRW->bUniqueFound )
    {
        if( poGRD->eAccess == GA_ReadOnly )
        {
            poGRD->SetSubdatasets( poGRW );

            if( CSLCount( poGRD->papszSubdatasets ) == 0 )
            {
                delete poGRD;
                poGRD = nullptr;
            }
        }
        return (GDALDataset*) poGRD;
    }

    //  -------------------------------------------------------------------
    //  Assign GeoRaster information
    //  -------------------------------------------------------------------

    poGRD->poGeoRaster   = poGRW;
    poGRD->nRasterXSize  = poGRW->nRasterColumns;
    poGRD->nRasterYSize  = poGRW->nRasterRows;
    poGRD->nBands        = poGRW->nRasterBands;

    if( poGRW->bIsReferenced )
    {
        poGRD->adfGeoTransform[1] = poGRW->dfXCoefficient[0];
        poGRD->adfGeoTransform[2] = poGRW->dfXCoefficient[1];
        poGRD->adfGeoTransform[0] = poGRW->dfXCoefficient[2];
        poGRD->adfGeoTransform[4] = poGRW->dfYCoefficient[0];
        poGRD->adfGeoTransform[5] = poGRW->dfYCoefficient[1];
        poGRD->adfGeoTransform[3] = poGRW->dfYCoefficient[2];
    }

    //  -------------------------------------------------------------------
    //  Copy RPC values to RPC metadata domain
    //  -------------------------------------------------------------------

    if( poGRW->phRPC )
    {
        char **papszRPC_MD = RPCInfoV2ToMD( poGRW->phRPC );
        char **papszSanitazed = nullptr;

        int i = 0;
        int n = CSLCount( papszRPC_MD );

        for( i = 0; i < n; i++ )
        {
            if ( STARTS_WITH_CI(papszRPC_MD[i], "MIN_LAT")  ||
                 STARTS_WITH_CI(papszRPC_MD[i], "MIN_LONG") ||
                 STARTS_WITH_CI(papszRPC_MD[i], "MAX_LAT")  ||
                 STARTS_WITH_CI(papszRPC_MD[i], "MAX_LONG") )
            {
                continue;
            }
            papszSanitazed = CSLAddString( papszSanitazed, papszRPC_MD[i] );
        }

        poGRD->SetMetadata( papszSanitazed, "RPC" );

        CSLDestroy( papszRPC_MD );
        CSLDestroy( papszSanitazed );
    }

    //  -------------------------------------------------------------------
    //  Open for JPEG 2000 compression for reading
    //  -------------------------------------------------------------------

    if( EQUAL( poGRW->sCompressionType.c_str(), "JP2-F" ) &&
        poGRD->eAccess == GA_ReadOnly )
    {
        poGRD->JP2_Open( poOpenInfo->eAccess );

        if( ! poGRD->poJP2Dataset )
        {
            delete poGRD;
            return nullptr;
        }
    }

    //  -------------------------------------------------------------------
    //  Load mask band
    //  -------------------------------------------------------------------

    poGRW->bHasBitmapMask = EQUAL( "TRUE", CPLGetXMLValue( poGRW->phMetadata,
                          "layerInfo.objectLayer.bitmapMask", "FALSE" ) );

    if( poGRW->bHasBitmapMask )
    {
        poGRD->poMaskBand = new GeoRasterRasterBand( poGRD, 0, DEFAULT_BMP_MASK );
    }

    //  -------------------------------------------------------------------
    //  Check for filter Nodata environment variable, default is YES
    //  -------------------------------------------------------------------

    const char *pszGEOR_FILTER_NODATA =
        CPLGetConfigOption( "GEOR_FILTER_NODATA_VALUES", "NO" );

    if( ! EQUAL(pszGEOR_FILTER_NODATA, "NO") )
    {
        poGRD->bApplyNoDataArray = true;
    }

    //  -------------------------------------------------------------------
    //  Create bands
    //  -------------------------------------------------------------------

    int i = 0;

    for( i = 1; i <= poGRD->nBands; i++ )
    {
        poGRD->SetBand( i, new GeoRasterRasterBand( poGRD, i, 0 ,
                                                    poGRD->poJP2Dataset) );
    }

    //  -------------------------------------------------------------------
    //  Set IMAGE_STRUCTURE metadata information
    //  -------------------------------------------------------------------

    if( poGRW->nBandBlockSize == 1 )
    {
        poGRD->SetMetadataItem( "INTERLEAVE", "BSQ", "IMAGE_STRUCTURE" );
    }
    else
    {
        if( EQUAL( poGRW->sInterleaving.c_str(), "BSQ" ) )
        {
            poGRD->SetMetadataItem( "INTERLEAVE", "BSQ", "IMAGE_STRUCTURE" );
        }
        else if( EQUAL( poGRW->sInterleaving.c_str(), "BIP" ) )
        {
            poGRD->SetMetadataItem( "INTERLEAVE", "PIB", "IMAGE_STRUCTURE" );
        }
        else if( EQUAL( poGRW->sInterleaving.c_str(), "BIL" ) )
        {
            poGRD->SetMetadataItem( "INTERLEAVE", "BIL", "IMAGE_STRUCTURE" );
        }
    }

    poGRD->SetMetadataItem( "COMPRESSION", CPLGetXMLValue( poGRW->phMetadata,
        "rasterInfo.compression.type", "NONE" ), "IMAGE_STRUCTURE" );

    if( STARTS_WITH_CI(poGRW->sCompressionType.c_str(), "JPEG") )
    {
        poGRD->SetMetadataItem( "COMPRESSION_QUALITY",
            CPLGetXMLValue( poGRW->phMetadata,
            "rasterInfo.compression.quality", "undefined" ), "IMAGE_STRUCTURE" );
    }

    if( EQUAL( poGRW->sCellDepth.c_str(), "1BIT" ) )
    {
        poGRD->SetMetadataItem( "NBITS", "1", "IMAGE_STRUCTURE" );
    }

    if( EQUAL( poGRW->sCellDepth.c_str(), "2BIT" ) )
    {
        poGRD->SetMetadataItem( "NBITS", "2", "IMAGE_STRUCTURE" );
    }

    if( EQUAL( poGRW->sCellDepth.c_str(), "4BIT" ) )
    {
        poGRD->SetMetadataItem( "NBITS", "4", "IMAGE_STRUCTURE" );
    }

    //  -------------------------------------------------------------------
    //  Set Metadata on "ORACLE" domain
    //  -------------------------------------------------------------------

    char* pszDoc = CPLSerializeXMLTree( poGRW->phMetadata );

    poGRD->SetMetadataItem( "TABLE_NAME", CPLSPrintf( "%s%s",
        poGRW->sSchema.c_str(),
        poGRW->sTable.c_str()), "ORACLE" );

    poGRD->SetMetadataItem( "COLUMN_NAME",
        poGRW->sColumn.c_str(), "ORACLE" );

    poGRD->SetMetadataItem( "RDT_TABLE_NAME",
        poGRW->sDataTable.c_str(), "ORACLE" );

    poGRD->SetMetadataItem( "RASTER_ID", CPLSPrintf( "%lld",
        poGRW->nRasterId ), "ORACLE" );

    poGRD->SetMetadataItem( "SRID", CPLSPrintf( "%lld",
        poGRW->nSRID ), "ORACLE" );

    poGRD->SetMetadataItem( "WKT", poGRW->sWKText.c_str(), "ORACLE" );

    poGRD->SetMetadataItem( "COMPRESSION",
        poGRW->sCompressionType.c_str(), "ORACLE" );

    poGRD->SetMetadataItem( "METADATA", pszDoc, "ORACLE" );

    CPLFree( pszDoc );

    //  -------------------------------------------------------------------
    //  Return a GDALDataset
    //  -------------------------------------------------------------------

    return (GDALDataset*) poGRD;
}

//  ---------------------------------------------------------------------------
//                                                                    JP2Open()
//  ---------------------------------------------------------------------------

void GeoRasterDataset::JP2_Open( GDALAccess /* eAccess */ )
{
    GDALDriver* poJP2Driver = nullptr;

    static const char * const apszDrivers[] = { "JP2OPENJPEG", "JP2ECW", "JP2MRSID",
                                                "JPEG2000", "JP2KAK", nullptr };

    // Find at least one available JP2 driver

    for( int iDriver = 0; apszDrivers[iDriver] != nullptr; iDriver++ )
    {
        poJP2Driver = (GDALDriver*) GDALGetDriverByName(apszDrivers[iDriver]);

        if( poJP2Driver )
        {
            break;
        }
    }

    // If JP2 driver is installed, try to open the LOB via VSIOCILOB handler

    poJP2Dataset = nullptr;

    if( poJP2Driver )
    {
        CPLString osDSName;

        osDSName.Printf( "/vsiocilob/%s,%s,%s,%s,%lld,noext",
                          poGeoRaster->poConnection->GetUser(),
                          poGeoRaster->poConnection->GetPassword(),
                          poGeoRaster->poConnection->GetServer(),
                          poGeoRaster->sDataTable.c_str(),
                          poGeoRaster->nRasterId );

        CPLPushErrorHandler( CPLQuietErrorHandler );

        poJP2Dataset = (GDALDataset*) GDALOpenEx( osDSName.c_str(),
                                                  GDAL_OF_RASTER,
                                                  apszDrivers,
                                                  nullptr, nullptr );

        CPLPopErrorHandler();

        if( ! poJP2Dataset )
        {
            CPLString osLastErrorMsg(CPLGetLastErrorMsg());
            CPLError( CE_Failure, CPLE_AppDefined,
                "Unable to open JPEG2000 image within GeoRaster dataset.\n%s",
                osLastErrorMsg.c_str() );
        }
    }
    else
    {
        CPLError( CE_Failure, CPLE_AppDefined,
            "Unable to open JPEG2000 image within GeoRaster dataset.\n%s",
            "No JPEG2000 capable driver (JP2OPENJPEG, "
            "JP2ECW, JP2MRSID, etc...) is available." );
    }
}

//  ---------------------------------------------------------------------------
//                                                              JP2CreateCopy()
//  ---------------------------------------------------------------------------

void GeoRasterDataset::JP2_CreateCopy( GDALDataset* poJP2DS,
                                       char** papszOptions,
                                       int* pnResolutions,
                                       GDALProgressFunc pfnProgress,
                                       void* pProgressData )
{
    GDALDriver* poJP2Driver = nullptr;

    static const char * const apszDrivers[] = { "JP2OPENJPEG", "JP2ECW", "JP2MRSID",
                                                "JPEG2000", "JP2KAK", nullptr };

    // Find at least one available JP2 driver

    for( int iDriver = 0; apszDrivers[iDriver] != nullptr; iDriver++ )
    {
        poJP2Driver = (GDALDriver*) GDALGetDriverByName(apszDrivers[iDriver]);

        if( poJP2Driver )
        {
            break;
        }
    }

    // If a JP2 driver is installed calls driver's CreateCopy

    poJP2Dataset = nullptr;

    if( poJP2Driver )
    {
        char** papszOpt = nullptr;

        const char* pszFetched  = CSLFetchNameValue( papszOptions, "JP2_BLOCKXSIZE" );

        if( pszFetched )
        {
            papszOpt = CSLAddNameValue( papszOpt, "BLOCKXSIZE",  pszFetched );
            papszOpt = CSLAddNameValue( papszOpt, "TILE_HEIGHT", pszFetched );
        }

        CPLDebug("GEOR","JP2_BLOCKXSIZE %s", pszFetched );

        pszFetched = CSLFetchNameValue( papszOptions, "JP2_BLOCKYSIZE" );

        if( pszFetched )
        {
            papszOpt = CSLAddNameValue( papszOpt, "BLOCKYSIZE",  pszFetched );
            papszOpt = CSLAddNameValue( papszOpt, "TILE_WIDTH",  pszFetched );
        }

        pszFetched = CSLFetchNameValue( papszOptions, "JP2_QUALITY" );

        if( pszFetched )
        {
            papszOpt = CSLAddNameValue( papszOpt, "QUALITY", pszFetched );

            if( STARTS_WITH_CI( pszFetched, "100" ) )
            {
                papszOpt = CSLAddNameValue( papszOpt, "REVERSIBLE",  "TRUE" );
            }

            poGeoRaster->nCompressQuality = atoi( pszFetched );
        }
        else
        {
            poGeoRaster->nCompressQuality = 25; // JP2OpenJPEG default...
        }

        pszFetched = CSLFetchNameValue( papszOptions, "JP2_REVERSIBLE" );

        if( pszFetched )
        {
            papszOpt = CSLAddNameValue( papszOpt, "REVERSIBLE", pszFetched );
        }

        pszFetched = CSLFetchNameValue( papszOptions, "JP2_RESOLUTIONS" );

        if( pszFetched )
        {
            papszOpt = CSLAddNameValue( papszOpt, "RESOLUTIONS", pszFetched );
            papszOpt = CSLAddNameValue( papszOpt, "RESOLUTIONS_LEVELS", pszFetched );
            papszOpt = CSLAddNameValue( papszOpt, "LAYERS", pszFetched );
        }

        pszFetched = CSLFetchNameValue( papszOptions, "JP2_PROGRESSION" );

        if( pszFetched )
        {
            papszOpt = CSLAddNameValue( papszOpt, "PROGRESSION", pszFetched );
        }

        papszOpt = CSLAddNameValue( papszOpt, "CODEC",       "JP2" );
        papszOpt = CSLAddNameValue( papszOpt, "GeoJP2",      "NO" );
        papszOpt = CSLAddNameValue( papszOpt, "GMLJP2",      "NO" );
        papszOpt = CSLAddNameValue( papszOpt, "YCBCR420",    "NO" );
        papszOpt = CSLAddNameValue( papszOpt, "TARGET",      "0" );

        CPLPushErrorHandler( CPLQuietErrorHandler );

        CPLString osDSName;

        osDSName.Printf( "/vsiocilob/%s,%s,%s,%s,%lld,noext",
                          poGeoRaster->poConnection->GetUser(),
                          poGeoRaster->poConnection->GetPassword(),
                          poGeoRaster->poConnection->GetServer(),
                          poGeoRaster->sDataTable.c_str(),
                          poGeoRaster->nRasterId );

        poJP2Dataset = (GDALDataset*) GDALCreateCopy( poJP2Driver,
                                                      osDSName.c_str(),
                                                      poJP2DS,
                                                      false,
                                                      (char**) papszOpt,
                                                      pfnProgress,
                                                      pProgressData );

        CPLPopErrorHandler();

        CSLDestroy( papszOpt );

        if( ! poJP2Dataset )
        {
            CPLString osLastErrorMsg(CPLGetLastErrorMsg());
            CPLError( CE_Failure, CPLE_AppDefined,
                "Unable to copy JPEG2000 image within GeoRaster dataset.\n%s",
                osLastErrorMsg.c_str() );
            return;
        }
    }
    else
    {
        CPLError( CE_Failure, CPLE_AppDefined,
            "Unable to copy JPEG2000 image within GeoRaster dataset.\n%s",
            "No JPEG2000 capable driver (JP2OPENJPEG, "
            "JP2ECW, JP2MRSID, etc...) is available." );
        return;
    }

    // Retrieve the number of resolutions based on the number of overviews

    CPLPushErrorHandler( CPLQuietErrorHandler );

    *pnResolutions = poJP2Dataset->GetRasterBand(1)->GetOverviewCount() + 1;

    delete poJP2Dataset;

    CPLPopErrorHandler(); // Avoid showing warning regards writing aux.xml file

    poJP2Dataset = nullptr;
}

//  ---------------------------------------------------------------------------
//                                                             JP2_CopyDirect()
//  ---------------------------------------------------------------------------

boolean GeoRasterDataset::JP2_CopyDirect( const char* pszJP2Filename,
                                          int* pnResolutions,
                                          GDALProgressFunc pfnProgress,
                                          void* pProgressData )
{
    char** papszFileList = GetFileList();

    if( CSLCount(papszFileList) == 0 )
    {
        CSLDestroy( papszFileList );
        return false;
    }

    VSILFILE *fpInput  = VSIFOpenL( pszJP2Filename, "r" );
    VSILFILE *fpOutput = VSIFOpenL( papszFileList[0], "wb" );

    size_t nCache = (size_t) ( GDALGetCacheMax() * 0.25 );

    void *pBuffer = (GByte*) VSIMalloc( sizeof(GByte) * nCache );

    GDALJP2Box oBox( fpInput );

    (void) oBox.ReadFirst();

    GUInt32   nLBox;
    GUInt32   nTBox;

    int       nBoxCount = 0;

    while( strlen(oBox.GetType()) > 0 )
    {
        nBoxCount++;

        if( EQUAL( oBox.GetType(), "jp  " ) ||
            EQUAL( oBox.GetType(), "ftyp" ) ||
            EQUAL( oBox.GetType(), "jp2h" ) )
        {
            size_t nDataLength = (size_t) oBox.GetDataLength();

            size_t nSize = VSIFReadL( pBuffer, 1, nDataLength, fpInput);

            if ( nSize != nDataLength )
            {
                CPLError( CE_Warning, CPLE_AppDefined,
                          "amount read differs from JP2 Box data length" );
            }

            nLBox = CPL_MSBWORD32( (int) nDataLength + 8 );

            memcpy( &nTBox, oBox.GetType(), 4 );

            VSIFWriteL( &nLBox, 4, 1, fpOutput );
            VSIFWriteL( &nTBox, 4, 1, fpOutput );
            VSIFWriteL( pBuffer, 1, nSize, fpOutput );
        }

        if( EQUAL( oBox.GetType(), "jp2c" ) )
        {
            size_t nCount = 0;
            size_t nSize = 0;
            size_t nDataLength = oBox.GetDataLength();

            nLBox = CPL_MSBWORD32( (int) nDataLength + 8 );

            memcpy( &nTBox, oBox.GetType(), 4 );

            VSIFWriteL( &nLBox, 4, 1, fpOutput );
            VSIFWriteL( &nTBox, 4, 1, fpOutput );

            while( nCount < nDataLength )
            {
                size_t nChunk = (size_t) MIN( nCache, nDataLength - nCount );

                nSize = VSIFReadL( pBuffer, 1, nChunk, fpInput );

                if ( nSize != nChunk )
                {
                    CPLError( CE_Warning, CPLE_AppDefined,
                              "amount read differs from JP2 data length" );
                }

                VSIFWriteL( pBuffer, 1, nSize, fpOutput );

                nCount += nSize;

                pfnProgress( (float) nCount / (float) nDataLength,
                             nullptr, pProgressData );
            }
        }

        if( ! oBox.ReadNext() )
        {
            break;
        }
    }

    VSIFCloseL( fpInput );
    VSIFCloseL( fpOutput );

    CSLDestroy( papszFileList );
    CPLFree( pBuffer );

    // Retrieve the number of resolutions based on the number of overviews

    JP2_Open( GA_ReadOnly );

    if( poJP2Dataset )
    {
        *pnResolutions = poJP2Dataset->GetRasterBand(1)->GetOverviewCount() + 1;

        delete poJP2Dataset;
        poJP2Dataset = nullptr;
    }

    return (nBoxCount > 0);
}

//  ---------------------------------------------------------------------------
//                                                             JPG_CopyDirect()
//  ---------------------------------------------------------------------------

boolean GeoRasterDataset::JPEG_CopyDirect( const char* pszJPGFilename,
                                           GDALProgressFunc pfnProgress,
                                           void* pProgressData )
{
    OWConnection*  poConnection  = poGeoRaster->poConnection;
    OCILobLocator* poLocator;

    OWStatement* poStmt = poConnection->CreateStatement( CPLSPrintf(
                   "select rasterblock from %s where rasterid = %lld "
                   "and rownum = 1 for update",
                   poGeoRaster->sDataTable.c_str(),
                   poGeoRaster->nRasterId ) );

    poStmt->Define( &poLocator );

    if( poStmt->Execute() )
    {
        VSILFILE *fpInput = VSIFOpenL( pszJPGFilename, "r" );

        size_t nCache = (size_t) ( GDALGetCacheMax() * 0.25 );

        void *pBuffer = (GByte*) VSIMalloc( sizeof(GByte) * nCache );

        VSIFSeekL( fpInput, 0L, SEEK_END);

        size_t nCount = 0;
        const size_t nDataLength = VSIFTellL( fpInput );

        VSIFSeekL( fpInput, 0L, SEEK_SET );

        GUIntBig nCurOff = 0;

        while( nCount < nDataLength )
        {
            size_t nChunk = (size_t) MIN( nCache, nDataLength - nCount );

            size_t nSize = VSIFReadL( pBuffer, 1, nChunk, fpInput );

            if ( nSize != nChunk )
            {
                CPLError( CE_Warning, CPLE_AppDefined,
                          "amount read differs from JPG length" );
            }

            const auto nWrite = poStmt->WriteBlob( poLocator,
                                        (void*) pBuffer,
                                        static_cast<unsigned long>(nCurOff + 1),
                                        static_cast<unsigned long>(nSize) );

            nCurOff += nWrite;
            nCount  += nSize;

            pfnProgress( (float) nCount / (float) nDataLength,
                         nullptr, pProgressData );
        }

        VSIFCloseL( fpInput );

        CPLFree( pBuffer );

        delete poStmt;

        return true;
    }

    if( poLocator )
    {
        OWStatement::Free( &poLocator, 1 );
    }

    delete poStmt;

    return false;
}

//  ---------------------------------------------------------------------------
//                                                                GetFileList()
//  ---------------------------------------------------------------------------

char** GeoRasterDataset::GetFileList()
{
    char** papszFileList = nullptr;

    if( EQUAL( poGeoRaster->sCompressionType.c_str(), "JP2-F" ) )
    {
        CPLString osDSName;

        osDSName.Printf( "/vsiocilob/%s,%s,%s,%s,%lld,noext",
                this->poGeoRaster->poConnection->GetUser(),
                this->poGeoRaster->poConnection->GetPassword(),
                this->poGeoRaster->poConnection->GetServer(),
                this->poGeoRaster->sDataTable.c_str(),
                this->poGeoRaster->nRasterId );

        papszFileList = CSLAddString( papszFileList, osDSName.c_str() );
    }

    return papszFileList;
}

//  ---------------------------------------------------------------------------
//                                                                     Create()
//  ---------------------------------------------------------------------------

GDALDataset *GeoRasterDataset::Create( const char *pszFilename,
                                       int nXSize,
                                       int nYSize,
                                       int nBands,
                                       GDALDataType eType,
                                       char **papszOptions )
{
    //  -------------------------------------------------------------------
    //  Check for supported Data types
    //  -------------------------------------------------------------------

    const char* pszCellDepth = OWSetDataType( eType );

    if( EQUAL( pszCellDepth, "Unknown" ) )
    {
        CPLError( CE_Failure, CPLE_AppDefined,
            "Attempt to create GeoRaster with unsupported data type (%s)",
            GDALGetDataTypeName( eType ) );
        return nullptr;
    }

    //  -------------------------------------------------------------------
    //  Open the Dataset
    //  -------------------------------------------------------------------

    GeoRasterDataset* poGRD = (GeoRasterDataset*) GDALOpen( pszFilename, GA_Update );

    if( ! poGRD )
    {
        return nullptr;
    }

    //  -------------------------------------------------------------------
    //  Get the GeoRaster
    //  -------------------------------------------------------------------

    GeoRasterWrapper* poGRW = poGRD->poGeoRaster;

    if( ! poGRW )
    {
        delete poGRD;
        return nullptr;
    }

    //  -------------------------------------------------------------------
    //  Set basic information and default values
    //  -------------------------------------------------------------------

    poGRW->nRasterColumns   = nXSize;
    poGRW->nRasterRows      = nYSize;
    poGRW->nRasterBands     = nBands;
    poGRW->sCellDepth       = pszCellDepth;
    poGRW->nRowBlockSize    = DEFAULT_BLOCK_ROWS;
    poGRW->nColumnBlockSize = DEFAULT_BLOCK_COLUMNS;
    poGRW->nBandBlockSize   = 1;

    if( poGRW->bUniqueFound )
    {
        poGRW->PrepareToOverwrite();
    }

    //  -------------------------------------------------------------------
    //  Check the create options to use in initialization
    //  -------------------------------------------------------------------

    const char* pszFetched  = "";
    CPLCharUniquePtr pszDescription;
    CPLCharUniquePtr pszInsert;
    int   nQuality          = -1;

    if( ! poGRW->sTable.empty() )
    {
        pszFetched = CSLFetchNameValue( papszOptions, "DESCRIPTION" );

        if( pszFetched )
        {
            pszDescription.reset(CPLStrdup( pszFetched ));
        }
    }

    if( poGRW->sTable.empty() )
    {
        poGRW->sTable = "GDAL_IMPORT";
        poGRW->sDataTable = "GDAL_RDT";
    }

    if( poGRW->sColumn.empty() )
    {
        poGRW->sColumn = "RASTER";
    }

    pszFetched = CSLFetchNameValue( papszOptions, "INSERT" );

    if( pszFetched )
    {
        pszInsert.reset(CPLStrdup( pszFetched ));
    }

    pszFetched = CSLFetchNameValue( papszOptions, "BLOCKXSIZE" );

    if( pszFetched )
    {
        poGRW->nColumnBlockSize = atoi( pszFetched );
    }

    pszFetched = CSLFetchNameValue( papszOptions, "BLOCKYSIZE" );

    if( pszFetched )
    {
        poGRW->nRowBlockSize = atoi( pszFetched );
    }

    pszFetched = CSLFetchNameValue( papszOptions, "NBITS" );

    if( pszFetched != nullptr )
    {
        poGRW->sCellDepth = CPLSPrintf( "%dBIT", atoi( pszFetched ) );
    }

    pszFetched = CSLFetchNameValue( papszOptions, "COMPRESS" );

    if( pszFetched != nullptr &&
        ( EQUAL( pszFetched, "JPEG-F" ) ||
          EQUAL( pszFetched, "JP2-F" ) ||
          EQUAL( pszFetched, "DEFLATE" ) ) )
    {
        poGRW->sCompressionType = pszFetched;
    }
    else
    {
        poGRW->sCompressionType = "NONE";
    }

    pszFetched = CSLFetchNameValue( papszOptions, "QUALITY" );

    if( pszFetched )
    {
        poGRW->nCompressQuality = atoi( pszFetched );
        nQuality = poGRW->nCompressQuality;
    }

    pszFetched = CSLFetchNameValue( papszOptions, "INTERLEAVE" );

    bool bInterleve_ind = false;

    if( pszFetched )
    {
        bInterleve_ind = true;

        if( EQUAL( pszFetched, "BAND" ) ||  EQUAL( pszFetched, "BSQ" ) )
        {
            poGRW->sInterleaving = "BSQ";
        }
        if( EQUAL( pszFetched, "LINE" ) ||  EQUAL( pszFetched, "BIL" ) )
        {
            poGRW->sInterleaving = "BIL";
        }
        if( EQUAL( pszFetched, "PIXEL" ) ||  EQUAL( pszFetched, "BIP" ) )
        {
            poGRW->sInterleaving = "BIP";
        }
    }
    else
    {
        if( EQUAL( poGRW->sCompressionType.c_str(), "NONE" ) == false )
        {
            poGRW->sInterleaving = "BIP";
        }
    }

    pszFetched = CSLFetchNameValue( papszOptions, "BLOCKBSIZE" );

    if( pszFetched )
    {
        poGRW->nBandBlockSize = atoi( pszFetched );
    }
    else
    {
        if( nBands == 3 || nBands == 4 )
        {
            poGRW->nBandBlockSize = nBands;
        }
    }

    if( bInterleve_ind == false &&
      ( poGRW->nBandBlockSize == 3 || poGRW->nBandBlockSize == 4 ) )
    {
      poGRW->sInterleaving = "BIP";
    }

    if( STARTS_WITH_CI(poGRW->sCompressionType.c_str(), "JPEG") )
    {
        if( ! EQUAL( poGRW->sInterleaving.c_str(), "BIP" ) )
        {
            CPLError( CE_Warning, CPLE_IllegalArg,
                "compress=JPEG assumes interleave=BIP" );
            poGRW->sInterleaving = "BIP";
        }
    }

    pszFetched = CSLFetchNameValue( papszOptions, "BLOCKING" );

    if( pszFetched )
    {
        if( EQUAL( pszFetched, "NO" ) )
        {
            poGRW->bBlocking = false;
        }

        if( EQUAL( pszFetched, "OPTIMALPADDING" ) )
        {
            if( poGRW->poConnection->GetVersion() < 11 )
            {
                CPLError( CE_Warning, CPLE_IllegalArg,
                    "BLOCKING=OPTIMALPADDING not supported on Oracle older than 11g" );
            }
            else
            {
                poGRW->bAutoBlocking = true;
                poGRW->bBlocking = true;
            }
        }
    }

    //  -------------------------------------------------------------------
    //  Validate options
    //  -------------------------------------------------------------------

    if( pszDescription.get() && poGRW->bUniqueFound )
    {
        CPLError( CE_Failure, CPLE_IllegalArg,
            "Option (DESCRIPTION) cannot be used on a existing GeoRaster." );
        delete poGRD;
        return nullptr;
    }

    if( pszInsert && poGRW->bUniqueFound )
    {
        CPLError( CE_Failure, CPLE_IllegalArg,
            "Option (INSERT) cannot be used on a existing GeoRaster." );
        delete poGRD;
        return nullptr;
    }

    /* Compression JPEG-B is deprecated. It should be able to read but not
     * to create new GeoRaster on databases with that compression option.
     *
     * TODO: Remove that options on next release.
     */

    if( EQUAL( poGRW->sCompressionType.c_str(), "JPEG-B" ) )
    {
        CPLError( CE_Failure, CPLE_IllegalArg,
            "Option (COMPRESS=%s) is deprecated and cannot be used.",
            poGRW->sCompressionType.c_str() );
        delete poGRD;
        return nullptr;
    }

    if( EQUAL( poGRW->sCompressionType.c_str(), "JPEG-F" ) )
    {
        /* JPEG-F can only compress byte data type
         */
        if( eType != GDT_Byte )
        {
            CPLError( CE_Failure, CPLE_IllegalArg,
                "Option (COMPRESS=%s) can only be used with Byte data type.",
                poGRW->sCompressionType.c_str() );
            delete poGRD;
            return nullptr;
        }

        /* JPEG-F can compress one band per block or 3 for RGB
         * or 4 for RGBA.
         */
        if( ( poGRW->nBandBlockSize != 1 &&
              poGRW->nBandBlockSize != 3 &&
              poGRW->nBandBlockSize != 4 ) ||
          ( ( poGRW->nBandBlockSize != 1 &&
            ( poGRW->nBandBlockSize != poGRW->nRasterBands ) ) ) )
        {
            CPLError( CE_Failure, CPLE_IllegalArg,
                "Option (COMPRESS=%s) requires BLOCKBSIZE to be 1 (for any "
                "number of bands), 3 (for 3 bands RGB) and 4 (for 4 bands RGBA).",
                poGRW->sCompressionType.c_str() );
            delete poGRD;
            return nullptr;
        }

        // There is a limit on how big a compressed block can be.
        if( ( poGRW->nColumnBlockSize *
              poGRW->nRowBlockSize *
              poGRW->nBandBlockSize *
              ( GDALGetDataTypeSize( eType ) / 8 ) ) > ( 50 * 1024 * 1024 ) )
        {
            CPLError( CE_Failure, CPLE_IllegalArg,
                "Option (COMPRESS=%s) each data block must not exceed 50Mb. "
                "Consider reducing BLOCK{X,Y,B}XSIZE.",
                poGRW->sCompressionType.c_str() );
            delete poGRD;
            return nullptr;
        }
    }

    if( EQUAL( poGRW->sCompressionType.c_str(), "DEFLATE" ) )
    {
        if( ( poGRW->nColumnBlockSize *
              poGRW->nRowBlockSize *
              poGRW->nBandBlockSize *
              ( GDALGetDataTypeSize( eType ) / 8 ) ) > ( 1024 * 1024 * 1024 ) )
        {
            CPLError( CE_Failure, CPLE_IllegalArg,
                "For (COMPRESS=%s) each data block must not exceed 1Gb. "
                "Consider reducing BLOCK{X,Y,B}XSIZE.",
                poGRW->sCompressionType.c_str() );
            delete poGRD;
            return nullptr;
        }
    }

    // When the compression is JP2-F it should be just one block

    if( EQUAL( poGRW->sCompressionType.c_str(), "JP2-F" ) )
    {
        poGRW->nRowBlockSize    = poGRW->nRasterRows;
        poGRW->nColumnBlockSize = poGRW->nRasterColumns;
        poGRW->nBandBlockSize   = poGRW->nRasterBands;
        poGRW->bBlocking        = false;
    }

    pszFetched = CSLFetchNameValue( papszOptions, "OBJECTTABLE" );

    if( pszFetched )
    {
        int nVersion = poGRW->poConnection->GetVersion();
        if( nVersion <= 11 )
        {
            CPLError( CE_Failure, CPLE_IllegalArg,
                "Driver create-option OBJECTTABLE not "
                "supported on Oracle %d", nVersion );
            delete poGRD;
            return nullptr;
        }
    }

    poGRD->poGeoRaster->bCreateObjectTable =
        CPLFetchBool( papszOptions, "OBJECTTABLE", false );

    //  -------------------------------------------------------------------
    //  Create a SDO_GEORASTER object on the server
    //  -------------------------------------------------------------------

    const bool bSuccess = poGRW->Create( pszDescription.get(), pszInsert.get(), poGRW->bUniqueFound );

    if( ! bSuccess )
    {
        delete poGRD;
        return nullptr;
    }

    //  -------------------------------------------------------------------
    //  Prepare an identification string
    //  -------------------------------------------------------------------

    char szStringId[OWTEXT];

    snprintf( szStringId, sizeof(szStringId), "georaster:%s,%s,%s,%s,%lld",
        poGRW->poConnection->GetUser(),
        poGRW->poConnection->GetPassword(),
        poGRW->poConnection->GetServer(),
        poGRW->sDataTable.c_str(),
        poGRW->nRasterId );

    delete poGRD;

    poGRD = (GeoRasterDataset*) GDALOpen( szStringId, GA_Update );

    if( ! poGRD )
    {
        return nullptr;
    }

    //  -------------------------------------------------------------------
    //  Load additional options
    //  -------------------------------------------------------------------

    pszFetched = CSLFetchNameValue( papszOptions, "VATNAME" );

    if( pszFetched )
    {
        poGRW->sValueAttributeTab = pszFetched;
    }

    pszFetched = CSLFetchNameValue( papszOptions, "SRID" );

    if( pszFetched )
    {
        poGRD->bForcedSRID = true;
        poGRD->poGeoRaster->SetGeoReference( atoi( pszFetched ) );
    }

    poGRD->poGeoRaster->bGenSpatialExtent =
        CPLFetchBool( papszOptions, "SPATIALEXTENT", TRUE );

    pszFetched = CSLFetchNameValue( papszOptions, "EXTENTSRID" );

    if( pszFetched )
    {
        poGRD->poGeoRaster->nExtentSRID = atoi( pszFetched );
    }

    pszFetched = CSLFetchNameValue( papszOptions, "COORDLOCATION" );

    if( pszFetched )
    {
        if( EQUAL( pszFetched, "CENTER" ) )
        {
            poGRD->poGeoRaster->eModelCoordLocation = MCL_CENTER;
        }
        else if( EQUAL( pszFetched, "UPPERLEFT" ) )
        {
            poGRD->poGeoRaster->eModelCoordLocation = MCL_UPPERLEFT;
        }
        else
        {
            CPLError( CE_Warning, CPLE_IllegalArg,
                "Incorrect COORDLOCATION (%s)", pszFetched );
        }
    }

    if ( nQuality > 0 )
    {
        poGRD->poGeoRaster->nCompressQuality = nQuality;
    }

    pszFetched = CSLFetchNameValue( papszOptions, "GENPYRAMID" );

    if( pszFetched != nullptr )
    {
        if (!(EQUAL(pszFetched, "NN") ||
              EQUAL(pszFetched, "BILINEAR") ||
              EQUAL(pszFetched, "BIQUADRATIC") ||
              EQUAL(pszFetched, "CUBIC") ||
              EQUAL(pszFetched, "AVERAGE4") ||
              EQUAL(pszFetched, "AVERAGE16")))
        {
            CPLError( CE_Warning, CPLE_IllegalArg, "Wrong resample method for pyramid (%s)", pszFetched);
        }

        poGRD->poGeoRaster->bGenPyramid = true;
        poGRD->poGeoRaster->sPyramidResampling = pszFetched;
    }

    pszFetched = CSLFetchNameValue( papszOptions, "GENPYRLEVELS" );

    if( pszFetched != nullptr )
    {
        poGRD->poGeoRaster->bGenPyramid = true;
        poGRD->poGeoRaster->nPyramidLevels = atoi(pszFetched);
    }

    //  -------------------------------------------------------------------
    //  Return a new Dataset
    //  -------------------------------------------------------------------

    return (GDALDataset*) poGRD;
}

//  ---------------------------------------------------------------------------
//                                                                 CreateCopy()
//  ---------------------------------------------------------------------------

GDALDataset *GeoRasterDataset::CreateCopy( const char* pszFilename,
                                           GDALDataset* poSrcDS,
                                           int bStrict,
                                           char** papszOptions,
                                           GDALProgressFunc pfnProgress,
                                           void* pProgressData )
{
    (void) bStrict;

    int nBands = poSrcDS->GetRasterCount();
    if (nBands == 0)
    {
        CPLError( CE_Failure, CPLE_NotSupported,
        "GeoRaster driver does not support source dataset with zero band.\n");
        return nullptr;
    }

    GDALRasterBand* poBand = poSrcDS->GetRasterBand( 1 );
    GDALDataType    eType  = poBand->GetRasterDataType();

    //  -----------------------------------------------------------
    //  Create a GeoRaster on the server or select one to overwrite
    //  -----------------------------------------------------------

    GeoRasterDataset *poDstDS =
        (GeoRasterDataset *) GeoRasterDataset::Create(
            pszFilename,
            poSrcDS->GetRasterXSize(),
            poSrcDS->GetRasterYSize(),
            poSrcDS->GetRasterCount(),
            eType, papszOptions );

    if( poDstDS == nullptr )
    {
        return nullptr;
    }

    //  -----------------------------------------------------------
    //  Copy information to the dataset
    //  -----------------------------------------------------------

    double adfTransform[6];

    if ( poSrcDS->GetGeoTransform( adfTransform ) == CE_None )
    {
        if ( ! ( adfTransform[0] == 0.0 &&
                 adfTransform[1] == 1.0 &&
                 adfTransform[2] == 0.0 &&
                 adfTransform[3] == 0.0 &&
                 adfTransform[4] == 0.0 &&
                 adfTransform[5] == 1.0 ) )
        {
            poDstDS->SetGeoTransform( adfTransform );

            if( ! poDstDS->bForcedSRID ) /* forced by create option SRID */
            {
                poDstDS->SetSpatialRef( poSrcDS->GetSpatialRef() );
            }
        }
    }

    // --------------------------------------------------------------------
    //      Copy GCPs
    // --------------------------------------------------------------------

    if( poSrcDS->GetGCPCount() > 0 )
    {
        poDstDS->SetGCPs( poSrcDS->GetGCPCount(),
                          poSrcDS->GetGCPs(),
                          poSrcDS->GetGCPSpatialRef() );
    }

    // --------------------------------------------------------------------
    //      Copy RPC
    // --------------------------------------------------------------------

    char **papszRPCMetadata = GDALGetMetadata( poSrcDS, "RPC" );

    if ( papszRPCMetadata != nullptr )
    {
        poDstDS->poGeoRaster->phRPC = (GDALRPCInfoV2*) VSICalloc( 1, sizeof(GDALRPCInfoV2) );
        CPL_IGNORE_RET_VAL(
            GDALExtractRPCInfoV2( papszRPCMetadata, poDstDS->poGeoRaster->phRPC ));
    }

    // --------------------------------------------------------------------
    //      Copy information to the raster bands
    // --------------------------------------------------------------------

    for( int iBand = 1; iBand <= poSrcDS->GetRasterCount(); iBand++ )
    {
        GDALRasterBand*      poSrcBand = poSrcDS->GetRasterBand( iBand );
        GeoRasterRasterBand* poDstBand = (GeoRasterRasterBand*)
                                         poDstDS->GetRasterBand( iBand );

        // ----------------------------------------------------------------
        //  Copy Color Table
        // ----------------------------------------------------------------

        GDALColorTable* poColorTable = poSrcBand->GetColorTable();

        if( poColorTable )
        {
            poDstBand->SetColorTable( poColorTable );
        }

        // ----------------------------------------------------------------
        //  Copy statistics information, without median and mode.
        // ----------------------------------------------------------------

        {
            double dfMin = 0.0;
            double dfMax = 0.0;
            double dfMean = 0.0;
            double dfStdDev = 0.0;
            if( poSrcBand->GetStatistics( false, false, &dfMin, &dfMax,
                &dfMean, &dfStdDev ) == CE_None )
            {
                poDstBand->SetStatistics( dfMin, dfMax, dfMean, dfStdDev );

                /* That will not be recorded in the GeoRaster metadata since it
                * doesn't have median and mode, so those values are only useful
                * at runtime.
                */
            }
        }

        // ----------------------------------------------------------------
        //  Copy statistics metadata information, including median and mode.
        // ----------------------------------------------------------------

        const char *pszMin     = poSrcBand->GetMetadataItem( "STATISTICS_MINIMUM" );
        const char *pszMax     = poSrcBand->GetMetadataItem( "STATISTICS_MAXIMUM" );
        const char *pszMean    = poSrcBand->GetMetadataItem( "STATISTICS_MEAN" );
        const char *pszMedian  = poSrcBand->GetMetadataItem( "STATISTICS_MEDIAN" );
        const char *pszMode    = poSrcBand->GetMetadataItem( "STATISTICS_MODE" );
        const char *pszStdDev  = poSrcBand->GetMetadataItem( "STATISTICS_STDDEV" );
        const char *pszSkipFX  = poSrcBand->GetMetadataItem( "STATISTICS_SKIPFACTORX" );
        const char *pszSkipFY  = poSrcBand->GetMetadataItem( "STATISTICS_SKIPFACTORY" );

        if ( pszMin    != nullptr && pszMax  != nullptr && pszMean   != nullptr &&
             pszMedian != nullptr && pszMode != nullptr && pszStdDev != nullptr )
        {
            const double dfMin        = CPLScanDouble( pszMin, MAX_DOUBLE_STR_REP );
            const double dfMax        = CPLScanDouble( pszMax, MAX_DOUBLE_STR_REP );
            const double dfMean       = CPLScanDouble( pszMean, MAX_DOUBLE_STR_REP );
            const double dfMedian     = CPLScanDouble( pszMedian, MAX_DOUBLE_STR_REP );
            const double dfMode       = CPLScanDouble( pszMode, MAX_DOUBLE_STR_REP );

            if ( ! ( ( dfMin    > dfMax ) ||
                     ( dfMean   > dfMax ) || ( dfMean   < dfMin ) ||
                     ( dfMedian > dfMax ) || ( dfMedian < dfMin ) ||
                     ( dfMode   > dfMax ) || ( dfMode   < dfMin ) ) )
            {
                if ( ! pszSkipFX )
                {
                    pszSkipFX = pszSkipFY != nullptr ? pszSkipFY : "1";
                }

                poDstBand->poGeoRaster->SetStatistics( iBand,
                                                       pszMin, pszMax, pszMean,
                                                       pszMedian, pszMode,
                                                       pszStdDev, pszSkipFX );
            }
        }

        // ----------------------------------------------------------------
        //  Copy Raster Attribute Table (RAT)
        // ----------------------------------------------------------------

        GDALRasterAttributeTableH poRAT = GDALGetDefaultRAT( poSrcBand );

        if( poRAT != nullptr )
        {
            poDstBand->SetDefaultRAT( (GDALRasterAttributeTable*) poRAT );
        }

        // ----------------------------------------------------------------
        //  Copy NoData Value
        // ----------------------------------------------------------------
        int    bHasNoDataValue = FALSE;
        const double dfNoDataValue = poSrcBand->GetNoDataValue( &bHasNoDataValue );

        if( bHasNoDataValue )
        {
            poDstBand->SetNoDataValue( dfNoDataValue );
        }
    }

    // --------------------------------------------------------------------
    //  Copy actual imagery.
    // --------------------------------------------------------------------

    int nXSize = poDstDS->GetRasterXSize();
    int nYSize = poDstDS->GetRasterYSize();

    int nBlockXSize = 0;
    int nBlockYSize = 0;

    poDstDS->GetRasterBand( 1 )->GetBlockSize( &nBlockXSize, &nBlockYSize );

    // --------------------------------------------------------------------
    //  JP2-F has one block with full image size. Use tile size instead
    // --------------------------------------------------------------------

    const char* pszFetched = CSLFetchNameValue( papszOptions, "COMPRESS" );

    if( pszFetched != nullptr && EQUAL( pszFetched, "JP2-F" ) )
    {
        nBlockXSize = DEFAULT_JP2_TILE_COLUMNS;
        nBlockYSize = DEFAULT_JP2_TILE_ROWS;
        pszFetched = CSLFetchNameValue( papszOptions, "JP2_BLOCKXSIZE" );
        if( pszFetched != nullptr )
        {
            nBlockXSize = atoi( pszFetched );
        }
        pszFetched = CSLFetchNameValue( papszOptions, "JP2_BLOCKYSIZE" );
        if( pszFetched != nullptr )
        {
            nBlockYSize = atoi( pszFetched );
        }
    }

    // --------------------------------------------------------------------
    //  Allocate memory buffer to read one block from one band
    // --------------------------------------------------------------------

    void *pData = VSI_MALLOC3_VERBOSE( nBlockXSize, nBlockYSize,
                                       GDALGetDataTypeSizeBytes(eType) );

    if( pData == nullptr )
    {
        delete poDstDS;
        return nullptr;
    }

    CPLErr eErr = CE_None;

    int nPixelSize = GDALGetDataTypeSize(
        poSrcDS->GetRasterBand(1)->GetRasterDataType() ) / 8;

    if( EQUAL( poDstDS->poGeoRaster->sCompressionType.c_str(), "JPEG-F" ) &&
        nBlockXSize == nXSize && nBlockYSize == nYSize )
    {
        // --------------------------------------------------------------------
        // Load JPEG avoiding decompression/compression - direct copy
        // --------------------------------------------------------------------

        const char* pszDriverName = poSrcDS->GetDriverName();

        if ( EQUAL( pszDriverName, "JPEG" ) )
        {
            char** papszFileList = poSrcDS->GetFileList();

            if ( poDstDS->JPEG_CopyDirect( papszFileList[0],
                                           pfnProgress,
                                           pProgressData ) )
            {
                CPLDebug("GEOR","JPEG Direct copy succeed");
            }
        }

    }
    else if( EQUAL( poDstDS->poGeoRaster->sCompressionType.c_str(), "JP2-F" ) )
    {
        // --------------------------------------------------------------------
        // Load JP2K avoiding decompression/compression - direct copy
        // --------------------------------------------------------------------

        boolean bJP2CopyDirectSucceed = false;

        const char* pszDriverName = poSrcDS->GetDriverName();

        int nJP2Resolution = -1;

        if ( EQUAL( pszDriverName, "JP2OpenJPEG" ) &&
             poSrcDS->GetRasterBand(1)->GetColorTable() == nullptr )
        {
            //  ---------------------------------------------------------------
            //  Try to load the JP2 file directly
            //  ---------------------------------------------------------------

            char** papszFileList = poSrcDS->GetFileList();

            bJP2CopyDirectSucceed = poDstDS->JP2_CopyDirect( papszFileList[0],
                                                             &nJP2Resolution,
                                                             pfnProgress,
                                                             pProgressData );

        }

        if( ! bJP2CopyDirectSucceed )
        {
            //  ---------------------------------------------------------------
            //  Use VSIOCILOB to load using a resident JP2 driver
            //  ---------------------------------------------------------------

            poDstDS->JP2_CreateCopy( poSrcDS,          /* JP2 dataset */
                                     papszOptions,     /* options list */
                                     &nJP2Resolution,  /* returned resolution */
                                     pfnProgress,      /* progress function */
                                     pProgressData );  /* progress data */

        }

        // Number of pyramid levels is the number of resolutions - 1

        poDstDS->poGeoRaster->SetMaxLevel( MAX( 1, nJP2Resolution - 1 ) );
    }
    else if( poDstDS->poGeoRaster->nBandBlockSize == 1)
    {
        // ----------------------------------------------------------------
        //  Band order
        // ----------------------------------------------------------------

        int nBandCount = poSrcDS->GetRasterCount();

        for( int iBand = 1; iBand <= nBandCount; iBand++ )
        {
            GDALRasterBand *poSrcBand = poSrcDS->GetRasterBand( iBand );
            GDALRasterBand *poDstBand = poDstDS->GetRasterBand( iBand );

            for( int iYOffset = 0, iYBlock = 0;
                 iYOffset < nYSize;
                 iYOffset += nBlockYSize, iYBlock++ )
            {
                const int nBlockRows = MIN( nBlockYSize, nYSize - iYOffset );
                for( int iXOffset = 0, iXBlock = 0;
                     iXOffset < nXSize;
                     iXOffset += nBlockXSize, iXBlock++ )
                {

                    const int nBlockCols = MIN( nBlockXSize, nXSize - iXOffset );

                    eErr = poSrcBand->RasterIO( GF_Read,
                        iXOffset, iYOffset,
                        nBlockCols, nBlockRows, pData,
                        nBlockCols, nBlockRows, eType,
                        nPixelSize,
                        nPixelSize * nBlockXSize, nullptr );

                    if( eErr != CE_None )
                    {
                        return nullptr;
                    }

                    eErr = poDstBand->WriteBlock( iXBlock, iYBlock, pData );

                    if( eErr != CE_None )
                    {
                        return nullptr;
                    }
                }

                if( ( eErr == CE_None ) && ( ! pfnProgress(
                      ( ( iBand - 1) / (float) nBandCount ) +
                      ( iYOffset + nBlockRows ) / (float) (nYSize * nBandCount),
                      nullptr, pProgressData ) ) )
                {
                    eErr = CE_Failure;
                    CPLError( CE_Failure, CPLE_UserInterrupt,
                        "User terminated CreateCopy()" );
                }
            }
        }
    }
    else
    {
        // ----------------------------------------------------------------
        //  Block order
        // ----------------------------------------------------------------

        poDstDS->poGeoRaster->SetWriteOnly( true );

        for( int iYOffset = 0, iYBlock = 0;
             iYOffset < nYSize;
             iYOffset += nBlockYSize, iYBlock++ )
        {
            const int nBlockRows = MIN( nBlockYSize, nYSize - iYOffset );
            for( int iXOffset = 0, iXBlock = 0;
                 iXOffset < nXSize;
                 iXOffset += nBlockXSize, iXBlock++ )
            {
                const int nBlockCols = MIN( nBlockXSize, nXSize - iXOffset );

                for( int iBand = 1;
                     iBand <= poSrcDS->GetRasterCount();
                     iBand++ )
                {
                    GDALRasterBand *poSrcBand = poSrcDS->GetRasterBand( iBand );
                    GDALRasterBand *poDstBand = poDstDS->GetRasterBand( iBand );

                    eErr = poSrcBand->RasterIO( GF_Read,
                        iXOffset, iYOffset,
                        nBlockCols, nBlockRows, pData,
                        nBlockCols, nBlockRows, eType,
                        nPixelSize,
                        nPixelSize * nBlockXSize, nullptr );

                    if( eErr != CE_None )
                    {
                        return nullptr;
                    }

                    eErr = poDstBand->WriteBlock( iXBlock, iYBlock, pData );

                    if( eErr != CE_None )
                    {
                        return nullptr;
                    }
                }
            }

            if( ( eErr == CE_None ) && ( ! pfnProgress(
                ( iYOffset + nBlockRows ) / (double) nYSize, nullptr,
                    pProgressData ) ) )
            {
                eErr = CE_Failure;
                CPLError( CE_Failure, CPLE_UserInterrupt,
                    "User terminated CreateCopy()" );
            }
        }
    }

    CPLFree( pData );

    // --------------------------------------------------------------------
    //      Finalize
    // --------------------------------------------------------------------

    poDstDS->FlushCache(false);

    if( pfnProgress )
    {
        CPLDebug("GEOR", "Output dataset: (georaster:%s/%s@%s,%s,%lld) on %s%s,%s",
            poDstDS->poGeoRaster->poConnection->GetUser(),
            poDstDS->poGeoRaster->poConnection->GetPassword(),
            poDstDS->poGeoRaster->poConnection->GetServer(),
            poDstDS->poGeoRaster->sDataTable.c_str(),
            poDstDS->poGeoRaster->nRasterId,
            poDstDS->poGeoRaster->sSchema.c_str(),
            poDstDS->poGeoRaster->sTable.c_str(),
            poDstDS->poGeoRaster->sColumn.c_str() );
    }

    return poDstDS;
}

//  ---------------------------------------------------------------------------
//                                                                  IRasterIO()
//  ---------------------------------------------------------------------------

CPLErr GeoRasterDataset::IRasterIO( GDALRWFlag eRWFlag,
                                    int nXOff, int nYOff, int nXSize, int nYSize,
                                    void *pData, int nBufXSize, int nBufYSize,
                                    GDALDataType eBufType,
                                    int nBandCount, int *panBandMap,
                                    GSpacing nPixelSpace, GSpacing nLineSpace,
                                    GSpacing nBandSpace,
                                    GDALRasterIOExtraArg* psExtraArg )

{
    if( EQUAL( poGeoRaster->sCompressionType.c_str(), "JP2-F" ) )
    {
        if( poJP2Dataset )
        {
            return poJP2Dataset->RasterIO( eRWFlag,
                        nXOff, nYOff, nXSize, nYSize,
                        pData, nBufXSize, nBufYSize, eBufType,
                        nBandCount, panBandMap,
                        nPixelSpace, nLineSpace, nBandSpace, psExtraArg );
        }
        else
        {
            return CE_Failure;
        }
    }
    else
    {
        if( poGeoRaster->nBandBlockSize > 1 )
        {
            return GDALDataset::BlockBasedRasterIO( eRWFlag,
                        nXOff, nYOff, nXSize, nYSize,
                        pData, nBufXSize, nBufYSize, eBufType,
                        nBandCount, panBandMap, nPixelSpace,
                        nLineSpace, nBandSpace, psExtraArg );
        }
        else
        {
            return GDALDataset::IRasterIO( eRWFlag,
                        nXOff, nYOff, nXSize, nYSize,
                        pData, nBufXSize, nBufYSize, eBufType,
                        nBandCount, panBandMap,
                        nPixelSpace, nLineSpace, nBandSpace, psExtraArg );
        }
    }
}

//  ---------------------------------------------------------------------------
//                                                  FlushCache(bool bAtClosing)
//  ---------------------------------------------------------------------------

void GeoRasterDataset::FlushCache(bool bAtClosing)
{
    GDALDataset::FlushCache(bAtClosing);
}

//  ---------------------------------------------------------------------------
//                                                            GetGeoTransform()
//  ---------------------------------------------------------------------------

CPLErr GeoRasterDataset::GetGeoTransform( double *padfTransform )
{
    if( poGeoRaster->phRPC )
    {
        return CE_Failure;
    }

    if( poGeoRaster->nSRID == 0 )
    {
        return CE_Failure;
    }

    memcpy( padfTransform, adfGeoTransform, sizeof(double) * 6 );

    bGeoTransform = true;

    return CE_None;
}

//  ---------------------------------------------------------------------------
//                                                           GetProjectionRef()
//  ---------------------------------------------------------------------------

const char* GeoRasterDataset::_GetProjectionRef( void )
{
    if( poGeoRaster->phRPC )
    {
        return "";
    }

    if( ! poGeoRaster->bIsReferenced )
    {
        return "";
    }

    if( poGeoRaster->nSRID == UNKNOWN_CRS || poGeoRaster->nSRID == 0 )
    {
        return "";
    }

    if( pszProjection )
    {
        return pszProjection;
    }

    OGRSpatialReference oSRS;

    // --------------------------------------------------------------------
    // Check if the SRID is a valid EPSG code
    // --------------------------------------------------------------------

    CPLPushErrorHandler( CPLQuietErrorHandler );

    if( oSRS.importFromEPSG( static_cast<int>(poGeoRaster->nSRID) ) == OGRERR_NONE )
    {
        /*
         * Ignores the WKT from Oracle and use the one from GDAL's
         * EPSG tables. That would ensure that other drivers/software
         * will recognize the parameters.
         */

        if( oSRS.exportToWkt( &pszProjection ) == OGRERR_NONE )
        {
            CPLPopErrorHandler();

            return pszProjection;
        }
        CPLFree(pszProjection);
        pszProjection = nullptr;
    }

    CPLPopErrorHandler();

    // --------------------------------------------------------------------
    // Try to interpreter the WKT text
    // --------------------------------------------------------------------

    poGeoRaster->QueryWKText();

    if( ! ( oSRS.importFromWkt( poGeoRaster->sWKText ) == OGRERR_NONE && oSRS.GetRoot() ) )
    {
        return poGeoRaster->sWKText;
    }

    // ----------------------------------------------------------------
    // Decorate with Authority name
    // ----------------------------------------------------------------

    if( strlen(poGeoRaster->sAuthority) > 0 )
    {
       oSRS.SetAuthority(oSRS.GetRoot()->GetValue(),
           poGeoRaster->sAuthority.c_str(), static_cast<int>(poGeoRaster->nSRID));
    }

    int nSpher = OWParseEPSG( oSRS.GetAttrValue("GEOGCS|DATUM|SPHEROID") );

    if( nSpher > 0 )
    {
        oSRS.SetAuthority( "GEOGCS|DATUM|SPHEROID", "EPSG", nSpher );
    }

    int nDatum = OWParseEPSG( oSRS.GetAttrValue("GEOGCS|DATUM") );

    if( nDatum > 0 )
    {
        oSRS.SetAuthority( "GEOGCS|DATUM", "EPSG", nDatum );
    }

    // ----------------------------------------------------------------
    // Checks for Projection info
    // ----------------------------------------------------------------

    const char *pszProjName = oSRS.GetAttrValue( "PROJECTION" );

    if( pszProjName )
    {
        int nProj = OWParseEPSG( pszProjName );

        // ----------------------------------------------------------------
        // Decorate with EPSG Authority
        // ----------------------------------------------------------------

        if( nProj > 0 )
        {
            oSRS.SetAuthority( "PROJECTION", "EPSG", nProj );
        }

        // ----------------------------------------------------------------
        // Translate projection names to GDAL's standards
        // ----------------------------------------------------------------

        if ( EQUAL( pszProjName, "Transverse Mercator" ) )
        {
            oSRS.SetProjection( SRS_PT_TRANSVERSE_MERCATOR );
        }
        else if ( EQUAL( pszProjName, "Albers Conical Equal Area" ) )
        {
            oSRS.SetProjection( SRS_PT_ALBERS_CONIC_EQUAL_AREA );
        }
        else if ( EQUAL( pszProjName, "Azimuthal Equidistant" ) )
        {
            oSRS.SetProjection( SRS_PT_AZIMUTHAL_EQUIDISTANT );
        }
        else if ( EQUAL( pszProjName, "Miller Cylindrical" ) )
        {
            oSRS.SetProjection( SRS_PT_MILLER_CYLINDRICAL );
        }
        else if ( EQUAL( pszProjName, "Hotine Oblique Mercator" ) )
        {
            oSRS.SetProjection( SRS_PT_HOTINE_OBLIQUE_MERCATOR );
        }
        else if ( EQUAL( pszProjName, "Wagner IV" ) )
        {
            oSRS.SetProjection( SRS_PT_WAGNER_IV );
        }
        else if ( EQUAL( pszProjName, "Wagner VII" ) )
        {
            oSRS.SetProjection( SRS_PT_WAGNER_VII );
        }
        else if ( EQUAL( pszProjName, "Eckert IV" ) )
        {
            oSRS.SetProjection( SRS_PT_ECKERT_IV );
        }
        else if ( EQUAL( pszProjName, "Eckert VI" ) )
        {
            oSRS.SetProjection( SRS_PT_ECKERT_VI );
        }
        else if ( EQUAL( pszProjName, "New Zealand Map Grid" ) )
        {
            oSRS.SetProjection( SRS_PT_NEW_ZEALAND_MAP_GRID );
        }
        else if ( EQUAL( pszProjName, "Lambert Conformal Conic" ) )
        {
            oSRS.SetProjection( SRS_PT_LAMBERT_CONFORMAL_CONIC_1SP );
        }
        else if ( EQUAL( pszProjName, "Lambert Azimuthal Equal Area" ) )
        {
            oSRS.SetProjection( SRS_PT_LAMBERT_AZIMUTHAL_EQUAL_AREA );
        }
        else if ( EQUAL( pszProjName, "Van der Grinten" ) )
        {
            oSRS.SetProjection( SRS_PT_VANDERGRINTEN );
        }
        else if ( EQUAL(
            pszProjName, "Lambert Conformal Conic (Belgium 1972)" ) )
        {
            oSRS.SetProjection( SRS_PT_LAMBERT_CONFORMAL_CONIC_2SP_BELGIUM );
        }
        else if ( EQUAL( pszProjName, "Cylindrical Equal Area" ) )
        {
            oSRS.SetProjection( SRS_PT_CYLINDRICAL_EQUAL_AREA );
        }
        else if ( EQUAL( pszProjName, "Interrupted Goode Homolosine" ) )
        {
            oSRS.SetProjection( SRS_PT_GOODE_HOMOLOSINE );
        }
    }

    oSRS.exportToWkt( &pszProjection );

    return pszProjection;
}

//  ---------------------------------------------------------------------------
//                                                            SetGeoTransform()
//  ---------------------------------------------------------------------------

CPLErr GeoRasterDataset::SetGeoTransform( double *padfTransform )
{
    memcpy( adfGeoTransform, padfTransform, sizeof( double ) * 6 );

    poGeoRaster->dfXCoefficient[0] = adfGeoTransform[1];
    poGeoRaster->dfXCoefficient[1] = adfGeoTransform[2];
    poGeoRaster->dfXCoefficient[2] = adfGeoTransform[0];
    poGeoRaster->dfYCoefficient[0] = adfGeoTransform[4];
    poGeoRaster->dfYCoefficient[1] = adfGeoTransform[5];
    poGeoRaster->dfYCoefficient[2] = adfGeoTransform[3];

    bGeoTransform = true;

    return CE_None;
}

//  ---------------------------------------------------------------------------
//                                                              SetProjection()
//  ---------------------------------------------------------------------------

CPLErr GeoRasterDataset::_SetProjection( const char *pszProjString )
{
    OGRSpatialReference oSRS;

    OGRErr eOGRErr = oSRS.importFromWkt( pszProjString );

    if( eOGRErr != OGRERR_NONE )
    {
        poGeoRaster->SetGeoReference( UNKNOWN_CRS );

        return CE_Failure;
    }

    // --------------------------------------------------------------------
    // Try to extract EPGS authority code
    // --------------------------------------------------------------------

    const char *pszAuthName = nullptr;
    const char *pszAuthCode = nullptr;

    if( oSRS.IsGeographic() )
    {
        pszAuthName = oSRS.GetAuthorityName( "GEOGCS" );
        pszAuthCode = oSRS.GetAuthorityCode( "GEOGCS" );
    }
    else if( oSRS.IsProjected() )
    {
        pszAuthName = oSRS.GetAuthorityName( "PROJCS" );
        pszAuthCode = oSRS.GetAuthorityCode( "PROJCS" );
    }

    if( pszAuthName != nullptr && pszAuthCode != nullptr )
    {
        if( EQUAL( pszAuthName, "ORACLE" ) ||
            EQUAL( pszAuthName, "EPSG" ) )
        {
            poGeoRaster->SetGeoReference( atoi( pszAuthCode ) );
            return CE_None;
        }
    }

    // ----------------------------------------------------------------
    // Convert SRS into old style format (SF-SQL 1.0)
    // ----------------------------------------------------------------

    std::unique_ptr<OGRSpatialReference> poSRS2(oSRS.Clone());

    double dfAngularUnits = poSRS2->GetAngularUnits( nullptr );

    if( fabs(dfAngularUnits - 0.0174532925199433) < 0.0000000000000010 )
    {
        /* match the precision used on Oracle for that particular value */

        poSRS2->SetAngularUnits( "Decimal Degree", 0.0174532925199433 );
    }

    char* pszCloneWKT = nullptr;

    const char* const apszOptions[] = { "FORMAT=SFSQL", nullptr };
    if( poSRS2->exportToWkt( &pszCloneWKT, apszOptions ) != OGRERR_NONE )
    {
        CPLFree(pszCloneWKT);
        return CE_Failure;
    }

    const char *pszProjName = poSRS2->GetAttrValue( "PROJECTION" );

    if( pszProjName )
    {
        // ----------------------------------------------------------------
        // Translate projection names to Oracle's standards
        // ----------------------------------------------------------------

        if ( EQUAL( pszProjName, SRS_PT_TRANSVERSE_MERCATOR ) )
        {
            poSRS2->SetProjection( "Transverse Mercator" );
        }
        else if ( EQUAL( pszProjName, SRS_PT_ALBERS_CONIC_EQUAL_AREA ) )
        {
            poSRS2->SetProjection( "Albers Conical Equal Area" );
        }
        else if ( EQUAL( pszProjName, SRS_PT_AZIMUTHAL_EQUIDISTANT ) )
        {
            poSRS2->SetProjection( "Azimuthal Equidistant" );
        }
        else if ( EQUAL( pszProjName, SRS_PT_MILLER_CYLINDRICAL ) )
        {
            poSRS2->SetProjection( "Miller Cylindrical" );
        }
        else if ( EQUAL( pszProjName, SRS_PT_HOTINE_OBLIQUE_MERCATOR ) )
        {
            poSRS2->SetProjection( "Hotine Oblique Mercator" );
        }
        else if ( EQUAL( pszProjName, SRS_PT_WAGNER_IV ) )
        {
            poSRS2->SetProjection( "Wagner IV" );
        }
        else if ( EQUAL( pszProjName, SRS_PT_WAGNER_VII ) )
        {
            poSRS2->SetProjection( "Wagner VII" );
        }
        else if ( EQUAL( pszProjName, SRS_PT_ECKERT_IV ) )
        {
            poSRS2->SetProjection( "Eckert IV" );
        }
        else if ( EQUAL( pszProjName, SRS_PT_ECKERT_VI ) )
        {
            poSRS2->SetProjection( "Eckert VI" );
        }
        else if ( EQUAL( pszProjName, SRS_PT_NEW_ZEALAND_MAP_GRID ) )
        {
            poSRS2->SetProjection( "New Zealand Map Grid" );
        }
        else if ( EQUAL( pszProjName, SRS_PT_LAMBERT_CONFORMAL_CONIC_1SP ) )
        {
            poSRS2->SetProjection( "Lambert Conformal Conic" );
        }
        else if ( EQUAL( pszProjName, SRS_PT_LAMBERT_AZIMUTHAL_EQUAL_AREA ) )
        {
            poSRS2->SetProjection( "Lambert Azimuthal Equal Area" );
        }
        else if ( EQUAL( pszProjName, SRS_PT_VANDERGRINTEN ) )
        {
            poSRS2->SetProjection( "Van der Grinten" );
        }
        else if ( EQUAL(
            pszProjName, SRS_PT_LAMBERT_CONFORMAL_CONIC_2SP_BELGIUM ) )
        {
            poSRS2->SetProjection( "Lambert Conformal Conic (Belgium 1972)" );
        }
        else if ( EQUAL( pszProjName, SRS_PT_CYLINDRICAL_EQUAL_AREA ) )
        {
            poSRS2->SetProjection( "Cylindrical Equal Area" );
        }
        else if ( EQUAL( pszProjName, SRS_PT_GOODE_HOMOLOSINE ) )
        {
            poSRS2->SetProjection( "Interrupted Goode Homolosine" );
        }

        // ----------------------------------------------------------------
        // Translate projection's parameters to Oracle's standards
        // ----------------------------------------------------------------

        char* pszStart = nullptr;

        CPLFree( pszCloneWKT );
        pszCloneWKT = nullptr;

        if( poSRS2->exportToWkt( &pszCloneWKT ) != OGRERR_NONE )
        {
            CPLFree(pszCloneWKT);
            return CE_Failure;
        }

        if( ( pszStart = strstr(pszCloneWKT, SRS_PP_AZIMUTH) ) != nullptr )
        {
            memcpy( pszStart, "Azimuth", strlen(SRS_PP_AZIMUTH) );
        }

        if( ( pszStart = strstr(pszCloneWKT, SRS_PP_CENTRAL_MERIDIAN) ) != nullptr )
        {
            memcpy( pszStart, "Central_Meridian",
                                        strlen(SRS_PP_CENTRAL_MERIDIAN) );
        }

        if( ( pszStart = strstr(pszCloneWKT, SRS_PP_FALSE_EASTING) ) != nullptr )
        {
            memcpy( pszStart, "False_Easting", strlen(SRS_PP_FALSE_EASTING) );
        }

        if( ( pszStart = strstr(pszCloneWKT, SRS_PP_FALSE_NORTHING) ) != nullptr )
        {
            memcpy( pszStart, "False_Northing",
                                        strlen(SRS_PP_FALSE_NORTHING) );
        }

        if( ( pszStart = strstr(pszCloneWKT, SRS_PP_LATITUDE_OF_CENTER) ) != nullptr )
        {
            memcpy( pszStart, "Latitude_Of_Center",
                                        strlen(SRS_PP_LATITUDE_OF_CENTER) );
        }

        if( ( pszStart = strstr(pszCloneWKT, SRS_PP_LATITUDE_OF_ORIGIN) ) != nullptr )
        {
            memcpy( pszStart, "Latitude_Of_Origin",
                                        strlen(SRS_PP_LATITUDE_OF_ORIGIN) );
        }

        if( ( pszStart = strstr(pszCloneWKT, SRS_PP_LONGITUDE_OF_CENTER) ) != nullptr )
        {
            memcpy( pszStart, "Longitude_Of_Center",
                                        strlen(SRS_PP_LONGITUDE_OF_CENTER) );
        }

        if( ( pszStart = strstr(pszCloneWKT, SRS_PP_PSEUDO_STD_PARALLEL_1) ) != nullptr )
        {
            memcpy( pszStart, "Pseudo_Standard_Parallel_1",
                                        strlen(SRS_PP_PSEUDO_STD_PARALLEL_1) );
        }

        if( ( pszStart = strstr(pszCloneWKT, SRS_PP_SCALE_FACTOR) ) != nullptr )
        {
            memcpy( pszStart, "Scale_Factor", strlen(SRS_PP_SCALE_FACTOR) );
        }

        if( ( pszStart = strstr(pszCloneWKT, SRS_PP_STANDARD_PARALLEL_1) ) != nullptr )
        {
            memcpy( pszStart, "Standard_Parallel_1",
                                        strlen(SRS_PP_STANDARD_PARALLEL_1) );
        }

        if( ( pszStart = strstr(pszCloneWKT, SRS_PP_STANDARD_PARALLEL_2) ) != nullptr )
        {
            memcpy( pszStart, "Standard_Parallel_2",
                                        strlen(SRS_PP_STANDARD_PARALLEL_2) );
        }

        if( ( pszStart = strstr(pszCloneWKT, SRS_PP_STANDARD_PARALLEL_2) ) != nullptr )
        {
            memcpy( pszStart, "Standard_Parallel_2",
                                        strlen(SRS_PP_STANDARD_PARALLEL_2) );
        }

        // ----------------------------------------------------------------
        // Fix Unit name
        // ----------------------------------------------------------------

        if( ( pszStart = strstr(pszCloneWKT, "metre") ) != nullptr )
        {
            memcpy( pszStart, SRS_UL_METER, strlen(SRS_UL_METER) );
        }
    }

    // --------------------------------------------------------------------
    // Tries to find a SRID compatible with the WKT
    // --------------------------------------------------------------------

    OWConnection* poConnection  = poGeoRaster->poConnection;
    OWStatement* poStmt = nullptr;

    int nNewSRID = 0;

    const char *pszFuncName = "FIND_GEOG_CRS";

    if( poSRS2->IsProjected() )
    {
        pszFuncName = "FIND_PROJ_CRS";
    }

    poStmt = poConnection->CreateStatement( CPLSPrintf(
        "DECLARE\n"
        "  LIST SDO_SRID_LIST;"
        "BEGIN\n"
        "  SELECT SDO_CS.%s('%s', null) into LIST FROM DUAL;\n"
        "  IF LIST.COUNT() > 0 then\n"
        "    SELECT LIST(1) into :out from dual;\n"
        "  ELSE\n"
        "    SELECT 0 into :out from dual;\n"
        "  END IF;\n"
        "END;",
            pszFuncName,
            pszCloneWKT ) );

    poStmt->BindName( ":out", &nNewSRID );

    CPLPushErrorHandler( CPLQuietErrorHandler );

    if( poStmt->Execute() )
    {
        CPLPopErrorHandler();

        if ( nNewSRID > 0 )
        {
            poGeoRaster->SetGeoReference( nNewSRID );
            CPLFree( pszCloneWKT );
            delete poStmt;
            return CE_None;
        }
    }
    delete poStmt;

    // --------------------------------------------------------------------
    // Search by simplified WKT or insert it as a user defined SRS
    // --------------------------------------------------------------------

    int nCounter = 0;

    poStmt = poConnection->CreateStatement( CPLSPrintf(
        "SELECT COUNT(*) FROM MDSYS.CS_SRS WHERE WKTEXT = '%s'", pszCloneWKT));

    poStmt->Define( &nCounter );

    CPLPushErrorHandler( CPLQuietErrorHandler );

    if( poStmt->Execute() && nCounter > 0 )
    {
        delete poStmt;

        poStmt = poConnection->CreateStatement( CPLSPrintf(
            "SELECT SRID FROM MDSYS.CS_SRS WHERE WKTEXT = '%s'", pszCloneWKT));

        poStmt->Define( &nNewSRID );

        if( poStmt->Execute() )
        {
            CPLPopErrorHandler();

            poGeoRaster->SetGeoReference( nNewSRID );
            CPLFree( pszCloneWKT );
            delete poStmt;
            return CE_None;
        }
    }

    CPLPopErrorHandler();

    delete poStmt;

    poStmt = poConnection->CreateStatement( CPLSPrintf(
        "DECLARE\n"
        "  MAX_SRID NUMBER := 0;\n"
        "BEGIN\n"
        "  SELECT MAX(SRID) INTO MAX_SRID FROM MDSYS.CS_SRS;\n"
        "  MAX_SRID := MAX_SRID + 1;\n"
        "  INSERT INTO MDSYS.CS_SRS (SRID, WKTEXT, CS_NAME)\n"
        "        VALUES (MAX_SRID, '%s', '%s');\n"
        "  SELECT MAX_SRID INTO :out FROM DUAL;\n"
        "END;",
            pszCloneWKT,
            oSRS.GetRoot()->GetChild(0)->GetValue() ) );

    poStmt->BindName( ":out", &nNewSRID );

    CPLErr eError = CE_None;

    CPLPushErrorHandler( CPLQuietErrorHandler );

    if( poStmt->Execute() )
    {
        CPLPopErrorHandler();

        poGeoRaster->SetGeoReference( nNewSRID );
    }
    else
    {
        CPLPopErrorHandler();

        poGeoRaster->SetGeoReference( UNKNOWN_CRS );

        CPLError( CE_Warning, CPLE_UserInterrupt,
            "Insufficient privileges to insert reference system to "
            "table MDSYS.CS_SRS." );

        eError = CE_Warning;
    }

    CPLFree( pszCloneWKT );

    delete poStmt;

    return eError;
}

/************************************************************************/
/*                      GetMetadataDomainList()                         */
/************************************************************************/

char **GeoRasterDataset::GetMetadataDomainList()
{
    return BuildMetadataDomainList(GDALDataset::GetMetadataDomainList(),
                                   TRUE,
                                   "SUBDATASETS", nullptr);
}

//  ---------------------------------------------------------------------------
//                                                                GetMetadata()
//  ---------------------------------------------------------------------------

char **GeoRasterDataset::GetMetadata( const char *pszDomain )
{
    if( pszDomain != nullptr && STARTS_WITH_CI(pszDomain, "SUBDATASETS") )
        return papszSubdatasets;
    else
        return GDALDataset::GetMetadata( pszDomain );
}

//  ---------------------------------------------------------------------------
//                                                                     Delete()
//  ---------------------------------------------------------------------------

CPLErr GeoRasterDataset::Delete( const char* pszFilename )
{
    (void) pszFilename;
/***
    GeoRasterDataset* poGRD = nullptr;

    poGRD = (GeoRasterDataset*) GDALOpen( pszFilename, GA_Update );

    if( ! poGRD )
    {
        return CE_Failure;
    }

    if( ! poGRD->poGeoRaster->Delete() )
    {
        return CE_Failure;
    }
***/
    return CE_None;
}

//  ---------------------------------------------------------------------------
//                                                             SetSubdatasets()
//  ---------------------------------------------------------------------------

void GeoRasterDataset::SetSubdatasets( GeoRasterWrapper* poGRW )
{
    OWConnection* poConnection  = poGRW->poConnection;

    //  -----------------------------------------------------------
    //  List all the GeoRaster Tables of that User/Database
    //  -----------------------------------------------------------

    if( poGRW->sTable.empty() &&
        poGRW->sColumn.empty() )
    {
        OWStatement* poStmt = poConnection->CreateStatement(
            "SELECT   DISTINCT TABLE_NAME, OWNER FROM ALL_SDO_GEOR_SYSDATA\n"
            "  ORDER  BY TABLE_NAME ASC" );

        char szTable[OWNAME];
        char szOwner[OWNAME];

        poStmt->Define( szTable );
        poStmt->Define( szOwner );

        if( poStmt->Execute() )
        {
            int nCount = 1;

            do
            {
                papszSubdatasets = CSLSetNameValue( papszSubdatasets,
                    CPLSPrintf( "SUBDATASET_%d_NAME", nCount ),
                    CPLSPrintf( "geor:%s/%s@%s,%s.%s",
                        poConnection->GetUser(), poConnection->GetPassword(),
                        poConnection->GetServer(), szOwner, szTable ) );

                papszSubdatasets = CSLSetNameValue( papszSubdatasets,
                    CPLSPrintf( "SUBDATASET_%d_DESC", nCount ),
                    CPLSPrintf( "%s.Table=%s", szOwner, szTable ) );

                nCount++;
            }
            while( poStmt->Fetch() );
        }

        delete poStmt;

        return;
    }

    //  -----------------------------------------------------------
    //  List all the GeoRaster Columns of that Table
    //  -----------------------------------------------------------

    if( ! poGRW->sTable.empty() &&
          poGRW->sColumn.empty() )
    {
        OWStatement* poStmt = poConnection->CreateStatement( CPLSPrintf(
            "SELECT   DISTINCT COLUMN_NAME, OWNER FROM ALL_SDO_GEOR_SYSDATA\n"
            "  WHERE  OWNER = UPPER('%s') AND TABLE_NAME = UPPER('%s')\n"
            "  ORDER  BY COLUMN_NAME ASC",
                poGRW->sOwner.c_str(),
                poGRW->sTable.c_str() ) );

        char szColumn[OWNAME];
        char szOwner[OWNAME];

        poStmt->Define( szColumn );
        poStmt->Define( szOwner );

        if( poStmt->Execute() )
        {
            int nCount = 1;

            do
            {
                papszSubdatasets = CSLSetNameValue( papszSubdatasets,
                    CPLSPrintf( "SUBDATASET_%d_NAME", nCount ),
                    CPLSPrintf( "geor:%s/%s@%s,%s.%s,%s",
                        poConnection->GetUser(), poConnection->GetPassword(),
                        poConnection->GetServer(), szOwner,
                        poGRW->sTable.c_str(), szColumn ) );

                papszSubdatasets = CSLSetNameValue( papszSubdatasets,
                    CPLSPrintf( "SUBDATASET_%d_DESC", nCount ),
                    CPLSPrintf( "Table=%s.%s Column=%s", szOwner,
                        poGRW->sTable.c_str(), szColumn ) );

                nCount++;
            }
            while( poStmt->Fetch() );
        }

        delete poStmt;

        return;
    }

    //  -----------------------------------------------------------
    //  List all the rows that contains GeoRaster on Table/Column/Where
    //  -----------------------------------------------------------

    CPLString osAndWhere = "";

    if( ! poGRW->sWhere.empty() )
    {
        osAndWhere = CPLSPrintf( "AND %s", poGRW->sWhere.c_str() );
    }

    OWStatement* poStmt = poConnection->CreateStatement( CPLSPrintf(
        "SELECT T.%s.RASTERDATATABLE, T.%s.RASTERID, \n"
        "  extractValue(t.%s.metadata, "
"'/georasterMetadata/rasterInfo/dimensionSize[@type=\"ROW\"]/size','%s'),\n"
        "  extractValue(t.%s.metadata, "
"'/georasterMetadata/rasterInfo/dimensionSize[@type=\"COLUMN\"]/size','%s'),\n"
        "  extractValue(t.%s.metadata, "
"'/georasterMetadata/rasterInfo/dimensionSize[@type=\"BAND\"]/size','%s'),\n"
        "  extractValue(t.%s.metadata, "
"'/georasterMetadata/rasterInfo/cellDepth','%s'),\n"
        "  extractValue(t.%s.metadata, "
"'/georasterMetadata/spatialReferenceInfo/SRID','%s')\n"
        "  FROM   %s%s T\n"
        "  WHERE  %s IS NOT NULL %s\n"
        "  ORDER  BY T.%s.RASTERDATATABLE ASC,\n"
        "            T.%s.RASTERID ASC",
        poGRW->sColumn.c_str(), poGRW->sColumn.c_str(),
        poGRW->sColumn.c_str(), OW_XMLNS,
        poGRW->sColumn.c_str(), OW_XMLNS,
        poGRW->sColumn.c_str(), OW_XMLNS,
        poGRW->sColumn.c_str(), OW_XMLNS,
        poGRW->sColumn.c_str(), OW_XMLNS,
        poGRW->sSchema.c_str(), poGRW->sTable.c_str(),
        poGRW->sColumn.c_str(), osAndWhere.c_str(),
        poGRW->sColumn.c_str(), poGRW->sColumn.c_str() ) );

    char szDataTable[OWNAME];
    char szRasterId[OWNAME];
    char szRows[OWNAME];
    char szColumns[OWNAME];
    char szBands[OWNAME];
    char szCellDepth[OWNAME];
    char szSRID[OWNAME];

    poStmt->Define( szDataTable );
    poStmt->Define( szRasterId );
    poStmt->Define( szRows );
    poStmt->Define( szColumns );
    poStmt->Define( szBands );
    poStmt->Define( szCellDepth );
    poStmt->Define( szSRID );

    if( poStmt->Execute() )
    {
        int nCount = 1;

        do
        {
            papszSubdatasets = CSLSetNameValue( papszSubdatasets,
                CPLSPrintf( "SUBDATASET_%d_NAME", nCount ),
                CPLSPrintf( "geor:%s/%s@%s,%s,%s",
                    poConnection->GetUser(), poConnection->GetPassword(),
                    poConnection->GetServer(), szDataTable, szRasterId ) );

            const char* pszXBands = "";

            if( ! EQUAL( szBands, "" ) )
            {
                pszXBands = CPLSPrintf( "x%s", szBands );
            }

            papszSubdatasets = CSLSetNameValue( papszSubdatasets,
                CPLSPrintf( "SUBDATASET_%d_DESC", nCount ),
                CPLSPrintf( "[%sx%s%s] CellDepth=%s SRID=%s",
                    szRows, szColumns, pszXBands,
                    szCellDepth, szSRID ) );

            nCount++;
        }
        while( poStmt->Fetch() );
    }
    delete poStmt;
}

int GeoRasterDataset::GetGCPCount()
{
    if ( poGeoRaster )
    {
        return poGeoRaster->nGCPCount;
    }

    return 0;
}

//  ---------------------------------------------------------------------------
//                                                                    SetGCPs()
//  ---------------------------------------------------------------------------

CPLErr GeoRasterDataset::_SetGCPs( int nGCPCountIn, const GDAL_GCP *pasGCPListIn,
                                  const char *pszGCPProjection )
{
    if( GetAccess() == GA_Update )
    {
        poGeoRaster->SetGCP( nGCPCountIn, pasGCPListIn );
        SetProjection( pszGCPProjection );
    }
    else
    {
        CPLError(CE_Failure, CPLE_NotSupported,
                 "SetGCPs() is only supported on GeoRaster insert or update.");
        return CE_Failure;
    }

    return CE_None;
}

const GDAL_GCP* GeoRasterDataset::GetGCPs()
{
    if( poGeoRaster->nGCPCount > 0 && poGeoRaster->pasGCPList )
    {
        return poGeoRaster->pasGCPList;
    }

    return nullptr;
}

//  ---------------------------------------------------------------------------
//                                                           GetGCPProjection()
//  ---------------------------------------------------------------------------

const char* GeoRasterDataset::_GetGCPProjection()
{
    if( poGeoRaster && poGeoRaster->nGCPCount > 0 )
        return pszProjection;
    else
        return "";
}

//  ---------------------------------------------------------------------------
//                                                            IBuildOverviews()
//  ---------------------------------------------------------------------------

CPLErr GeoRasterDataset::IBuildOverviews( const char* pszResampling,
                                          int nOverviews,
                                          int* panOverviewList,
                                          int nListBands,
                                          int* panBandList,
                                          GDALProgressFunc pfnProgress,
                                          void* pProgressData )
{
    (void) panBandList;
    (void) nListBands;

    if( EQUAL( poGeoRaster->sCompressionType.c_str(), "JP2-F" ) )
    {
        return CE_None; // Ignore it, JP2 automatically has overviews
    }

    //  ---------------------------------------------------------------
    //  Can't update on read-only access mode
    //  ---------------------------------------------------------------

    if( GetAccess() != GA_Update )
    {
        CPLError( CE_Failure, CPLE_AppDefined,
            "Can't build overviews/pyramids on read-only access." );
        return CE_Failure;
    }

    //  ---------------------------------------------------------------
    //  Uses internal sdo_generatePyramid at PL/SQL?
    //  ---------------------------------------------------------------

    bool bInternal = true;

    const char *pszGEOR_INTERNAL_PYR = CPLGetConfigOption( "GEOR_INTERNAL_PYR",
        "YES" );

    if( EQUAL(pszGEOR_INTERNAL_PYR, "NO") )
    {
        bInternal = false;
    }

    //  -----------------------------------------------------------
    //  Pyramids applies to the whole dataset not to a specific band
    //  -----------------------------------------------------------

    if( nBands < GetRasterCount())
    {
        CPLError( CE_Failure, CPLE_AppDefined,
            "Invalid GeoRaster Pyramids band selection" );
        return CE_Failure;
    }

    //  ---------------------------------------------------------------
    //  Initialize progress reporting
    //  ---------------------------------------------------------------

    if( ! pfnProgress( 0.1, nullptr, pProgressData ) )
    {
        CPLError( CE_Failure, CPLE_UserInterrupt, "User terminated" );
        return CE_Failure;
    }

    //  ---------------------------------------------------------------
    //  Clear existing overviews
    //  ---------------------------------------------------------------

    if( nOverviews == 0 )
    {
        poGeoRaster->DeletePyramid();
        return CE_None;
    }

    //  -----------------------------------------------------------
    //  Pyramids levels can not be treated individually
    //  -----------------------------------------------------------

    if( nOverviews > 0 )
    {
        int i;
        for( i = 1; i < nOverviews; i++ )
        {
            //  -----------------------------------------------------------
            //  Power of 2, starting on 2, e.g. 2, 4, 8, 16, 32, 64, 128
            //  -----------------------------------------------------------

            if( panOverviewList[0] != 2 ||
              ( panOverviewList[i] != panOverviewList[i-1] * 2 ) )
            {
                CPLError( CE_Failure, CPLE_AppDefined,
                    "Invalid GeoRaster Pyramids levels." );
                return CE_Failure;
            }
        }
    }

    //  -----------------------------------------------------------
    //  Re-sampling method:
    //    NN, BILINEAR, AVERAGE4, AVERAGE16 and CUBIC
    //  -----------------------------------------------------------

    char szMethod[OWNAME];

    if( EQUAL( pszResampling, "NEAREST" ) )
    {
        strcpy( szMethod, "NN" );
    }
    else if( STARTS_WITH_CI(pszResampling, "AVERAGE") )
    {
        strcpy( szMethod, "AVERAGE4" );
    }
    else
    {
        CPLError( CE_Failure, CPLE_AppDefined, "Invalid resampling method" );
        return CE_Failure;
    }

    //  -----------------------------------------------------------
    //  Generate pyramids on poGeoRaster
    //  -----------------------------------------------------------

    if( ! poGeoRaster->GeneratePyramid( nOverviews, szMethod, bInternal ) )
    {
        CPLError( CE_Failure, CPLE_AppDefined, "Error generating pyramid" );
        return CE_Failure;
    }

    //  -----------------------------------------------------------
    //  If Pyramid was done internally on the server exit here
    //  -----------------------------------------------------------

    if( bInternal )
    {
        pfnProgress( 1 , nullptr, pProgressData );
        return CE_None;
    }

    //  -----------------------------------------------------------
    //  Load the pyramids data using GDAL methods
    //  -----------------------------------------------------------

    CPLErr eErr = CE_None;

    int i = 0;

    for( i = 0; i < nBands; i++ )
    {
        GeoRasterRasterBand* poBand = (GeoRasterRasterBand*) papoBands[i];

        //  -------------------------------------------------------
        //  Clean up previous overviews
        //  -------------------------------------------------------

        int j = 0;

        if( poBand->nOverviewCount && poBand->papoOverviews )
        {
            for( j = 0; j < poBand->nOverviewCount; j++ )
            {
                delete poBand->papoOverviews[j];
            }
            CPLFree( poBand->papoOverviews );
        }

        //  -------------------------------------------------------
        //  Create new band's overviews list
        //  -------------------------------------------------------

        poBand->nOverviewCount = poGeoRaster->nPyramidMaxLevel;
        poBand->papoOverviews  = (GeoRasterRasterBand**) VSIMalloc(
                sizeof(GeoRasterRasterBand*) * poBand->nOverviewCount );

        for( j = 0; j < poBand->nOverviewCount; j++ )
        {
          poBand->papoOverviews[j] = new GeoRasterRasterBand(
                (GeoRasterDataset*) this, ( i + 1 ), ( j + 1 ) );
        }
    }

    //  -----------------------------------------------------------
    //  Load band's overviews
    //  -----------------------------------------------------------

    for( i = 0; i < nBands; i++ )
    {
        GeoRasterRasterBand* poBand = (GeoRasterRasterBand*) papoBands[i];

        void *pScaledProgressData = GDALCreateScaledProgress(
            i / (double) nBands, ( i + 1) / (double) nBands,
            pfnProgress, pProgressData );

        eErr = GDALRegenerateOverviews(
            (GDALRasterBandH) poBand,
            poBand->nOverviewCount,
            (GDALRasterBandH*) poBand->papoOverviews,
            pszResampling,
            GDALScaledProgress,
            pScaledProgressData );

        GDALDestroyScaledProgress( pScaledProgressData );
    }

    return eErr;
}

//  ---------------------------------------------------------------------------
//                                                             CreateMaskBand()
//  ---------------------------------------------------------------------------

CPLErr GeoRasterDataset::CreateMaskBand( int /*nFlags*/ )
{
    if( ! poGeoRaster->InitializeMask( DEFAULT_BMP_MASK,
            poGeoRaster->nRowBlockSize,
            poGeoRaster->nColumnBlockSize,
            poGeoRaster->nTotalRowBlocks,
            poGeoRaster->nTotalColumnBlocks,
            poGeoRaster->nTotalBandBlocks ) )
    {
        return CE_Failure;
    }

    poGeoRaster->bHasBitmapMask = true;

    return CE_None;
}

/*****************************************************************************/
/*                          GDALRegister_GEOR                                */
/*****************************************************************************/

void CPL_DLL GDALRegister_GEOR()

{
    if( !GDAL_CHECK_VERSION( "GeoRaster driver" ) )
        return;

    if( GDALGetDriverByName( "GeoRaster" ) != nullptr )
        return;

    GDALDriver *poDriver = new GDALDriver();

    poDriver->SetDescription(  "GeoRaster" );
    poDriver->SetMetadataItem( GDAL_DCAP_RASTER, "YES" );
    poDriver->SetMetadataItem( GDAL_DMD_LONGNAME, "Oracle Spatial GeoRaster" );
    poDriver->SetMetadataItem( GDAL_DMD_HELPTOPIC, "drivers/raster/georaster.html" );
    poDriver->SetMetadataItem( GDAL_DMD_SUBDATASETS, "YES" );
    poDriver->SetMetadataItem( GDAL_DMD_CREATIONDATATYPES,
                               "Byte UInt16 Int16 UInt32 Int32 Float32 "
                               "Float64 CFloat32 CFloat64" );
    poDriver->SetMetadataItem( GDAL_DMD_CREATIONOPTIONLIST,
"<CreationOptionList>"
"  <Option name='DESCRIPTION' type='string' description='Table Description'/>"
"  <Option name='INSERT'      type='string' description='Column Values'/>"
"  <Option name='BLOCKXSIZE'  type='int'    description='Column Block Size' "
                                           "default='512'/>"
"  <Option name='BLOCKYSIZE'  type='int'    description='Row Block Size' "
                                           "default='512'/>"
"  <Option name='BLOCKBSIZE'  type='int'    description='Band Block Size'/>"
"  <Option name='BLOCKING'    type='string-select' default='YES'>"
"       <Value>YES</Value>"
"       <Value>NO</Value>"
"       <Value>OPTIMALPADDING</Value>"
"  </Option>"
"  <Option name='SRID'        type='int'    description='Overwrite EPSG code'/>"
"  <Option name='GENPYRAMID'  type='string-select' "
" description='Generate Pyramid, inform resampling method'>"
"       <Value>NN</Value>"
"       <Value>BILINEAR</Value>"
"       <Value>BIQUADRATIC</Value>"
"       <Value>CUBIC</Value>"
"       <Value>AVERAGE4</Value>"
"       <Value>AVERAGE16</Value>"
"  </Option>"
"  <Option name='GENPYRLEVELS'  type='int'  description='Number of pyramid level to generate'/>"
"  <Option name='OBJECTTABLE' type='boolean' "
                                           "description='Create RDT as object table'/>"
"  <Option name='SPATIALEXTENT' type='boolean' "
                                           "description='Generate Spatial Extent' "
                                           "default='TRUE'/>"
"  <Option name='EXTENTSRID'  type='int'    description='Spatial ExtentSRID code'/>"
"  <Option name='COORDLOCATION'    type='string-select' default='CENTER'>"
"       <Value>CENTER</Value>"
"       <Value>UPPERLEFT</Value>"
"  </Option>"
"  <Option name='VATNAME'     type='string' description='Value Attribute Table Name'/>"
"  <Option name='NBITS'       type='int'    description='BITS for sub-byte "
                                           "data types (1,2,4) bits'/>"
"  <Option name='INTERLEAVE'  type='string-select'>"
"       <Value>BSQ</Value>"
"       <Value>BIP</Value>"
"       <Value>BIL</Value>"
"   </Option>"
"  <Option name='COMPRESS'    type='string-select'>"
"       <Value>NONE</Value>"
"       <Value>JPEG-F</Value>"
"       <Value>JP2-F</Value>"
"       <Value>DEFLATE</Value>"
"  </Option>"
"  <Option name='QUALITY'     type='int'    description='JPEG quality 0..100' "
                                           "default='75'/>"
"  <Option name='JP2_QUALITY'     type='string' description='For JP2-F compression, single quality value or comma separated list "
        "of increasing quality values for several layers, each in the 0-100 range' default='25'/>"
"  <Option name='JP2_BLOCKXSIZE'  type='int' description='For JP2 compression, tile Width' default='1024'/>"
"  <Option name='JP2_BLOCKYSIZE'  type='int' description='For JP2 compression, tile Height' default='1024'/>"
"  <Option name='JP2_REVERSIBLE'  type='boolean' description='For JP2-F compression, True if the compression is reversible' default='false'/>"
"  <Option name='JP2_RESOLUTIONS' type='int' description='For JP2-F compression, Number of resolutions.' min='1' max='30'/>"
"  <Option name='JP2_PROGRESSION' type='string-select' description='For JP2-F compression, progression order' default='LRCP'>"
"    <Value>LRCP</Value>"
"    <Value>RLCP</Value>"
"    <Value>RPCL</Value>"
"    <Value>PCRL</Value>"
"    <Value>CPRL</Value>"
"  </Option>"
"</CreationOptionList>" );

    poDriver->pfnOpen       = GeoRasterDataset::Open;
    poDriver->pfnCreate     = GeoRasterDataset::Create;
    poDriver->pfnCreateCopy = GeoRasterDataset::CreateCopy;
    poDriver->pfnIdentify   = GeoRasterDataset::Identify;
    poDriver->pfnDelete     = GeoRasterDataset::Delete;

    GetGDALDriverManager()->RegisterDriver( poDriver );

    VSIInstallOCILobHandler();
}
